You are referring to the ionization enthalpy. The first ionization energy of sodium is the energy for the process
Na(g) --> Na+(g) + e-(g).
Ionization Energy
The amount of energy that is absorbed is the same as the amount of energy that is released.
1 electron-volt is a small unit of energy. It's the amount of energy gained or lost by the (amount of electric charge on one electron) moving through a (potential difference of one volt). 1 joule of energy is the same as about 6,241,400,000,000,000,000 electron-volts.
I think its facedikertuiploped
Ionization energy is more commonly used to remove the topmost electron in the atom very important information if you are getting ready for a test.
This is an electron situated on the outermost level.
The amount of energy needed to move an electron from one energy level to another is called a quantum.
The amount of energy required to remove an electron form an at is the ionization energy.
The amount of energy that is absorbed is the same as the amount of energy that is released.
1 electron-volt is a small unit of energy. It's the amount of energy gained or lost by the (amount of electric charge on one electron) moving through a (potential difference of one volt). 1 joule of energy is the same as about 6,241,400,000,000,000,000 electron-volts.
The bohr diagram does
I think its facedikertuiploped
I think its facedikertuiploped
voltage is the amount of energy an electron carries
An excited electron releases a photon as it returns to ground state.
Yes, an electron's movement is related to its amount of energy. As a matter of fact, everything's movement, not just an electron's, is related to the amount of energy that that thing has. As the energy of an object increases, either its translational, rotational, vibrational, or some combination of the three, motion increases.
Ionization energy is more commonly used to remove the topmost electron in the atom very important information if you are getting ready for a test.
The amount of energy needed to remove the outermost electron.